Prospects for chemical and biotechnological processing of miscanthus

N. Shavyrkina, Yu. A. Gismatulina, V. Budaeva
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引用次数: 2

Abstract

The processing of plant biomass into demanded and economically viable products is currently a recognized global trend. Among alternative energy directions, biomass conversion is the most predictable and sustainable carbon resource that can replace fossil fuels. Already today, plant biomass provides almost 25% of the world’s energy supply. This review provides information on the most promising areas of chemical and biotechnological processing of the biomass of such an energy plant as miscanthus. The choice of miscanthus is due to its high yield (up to 40 t/ha of sown area) and high energy yield (140–560 GJ/ha) compared to other plant materials. In addition, miscanthus is able to grow on marginal lands and does not require special agronomic measures, while in the process of its cultivation, the soil is enriched with organic substances and it is cleaned from pollutants. The review reflects the directions of processing of native biomass and pretreated biomass. Miscanthus biomass, in addition to processing into energy resources, can be fractionated and transformed into many high-value products - cellulose, cellulose nitrates, ethylene, hydroxymethylfurfural, furfural, phenols, ethylene glycol, cooking solutions after nitric acid pretreatment of miscanthus biomass can act as lignohumic fertilizers. In addition, on the basis of miscanthus cellulose hydrolysates, it is possible to obtain benign nutrient media for biotechnological transformation into bacterial nanocellulose, for the accumulation and isolation of various microbial enzymes.
芒草化学与生物技术加工展望
将植物生物质加工成需要的和经济上可行的产品是目前公认的全球趋势。在替代能源方向中,生物质转化是可替代化石燃料的最具可预测性和可持续性的碳资源。今天,植物生物量已经提供了世界能源供应的近25%。本文综述了对芒草等能源植物的生物质进行化学和生物技术处理的最有前途的领域。与其他植物材料相比,选择芒草是由于其高产(高达40吨/公顷的播种面积)和高能量产量(140-560吉焦/公顷)。此外,芒草可以在边缘土地上生长,不需要特殊的农艺措施,而在种植过程中,土壤富含有机物,清除了污染物。综述了天然生物质和预处理生物质加工的发展方向。芒草生物质除加工成能源外,还可分馏转化为许多高价值产品——纤维素、硝酸盐纤维素、乙烯、羟甲基糠醛、糠醛、酚类、乙二醇,芒草生物质经硝酸预处理后的蒸煮溶液可作为木质素腐殖质肥料。此外,在芒草纤维素水解物的基础上,可以获得用于生物技术转化为细菌纳米纤维素的良性营养培养基,用于积累和分离各种微生物酶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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